Pharmacokinetics of OpdA, an organophosphorus hydrolase, in the African Green Monkey
Identifieur interne : 007401 ( Main/Merge ); précédent : 007400; suivant : 007402Pharmacokinetics of OpdA, an organophosphorus hydrolase, in the African Green Monkey
Auteurs : Colin J. Jackson ; Colin Scott ; Angela Carville ; Keith Mansfield ; David L. Ollis ; Steven B. BirdSource :
- Biochemical pharmacology [ 0006-2952 ] ; 2010.
Abstract
Organophosphorus (OP) pesticides are a broad class of acetylcholinesterase inhibitors that are responsible for tremendous morbidity and mortality worldwide, contributing to an estimated 300,000 deaths annually. Current pharmacotherapy for acute OP poisoning includes the use of atropine, an oxime, and benzodiazepines. However, even with such therapy, the mortality from these agents are as high as 40%.
Enzymatic hydrolysis of OPs is an attractive new potential therapy for acute OP poisoning. A number of bacterial OP hydrolases have been isolated. A promising OP hydrolase is an enzyme isolated from
At a dose of 1.2 mg/kg the half-life of OpdA was approximately 40 minutes, with a mean residence time of 57 minutes. As expected, the half-life did not change with the dose of OpdA given: at doses of 0.15 and 0.45 mg/kg, the half-life of OpdA was 43.1 and 38.9 minutes, respectively. In animals subjected to 5 daily doses of OpdA, the residual activity that was measured 24 hours after each OpdA dose increased 5-fold for the 0.45 mg/kg dose and 11-fold for the 1.2 mg/kg dose.
OpdA exhibits pharmacokinetics favorable for the further development as a therapy for acute OP poisoning, particularly for hydrophilic OP pesticides. Future work to increase the half-life of OpdA may be beneficial.
Url:
DOI: 10.1016/j.bcp.2010.06.008
PubMed: 20599794
PubMed Central: 2923271
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PMC:2923271Le document en format XML
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<author><name sortKey="Scott, Colin" sort="Scott, Colin" uniqKey="Scott C" first="Colin" last="Scott">Colin Scott</name>
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<author><name sortKey="Carville, Angela" sort="Carville, Angela" uniqKey="Carville A" first="Angela" last="Carville">Angela Carville</name>
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<author><name sortKey="Mansfield, Keith" sort="Mansfield, Keith" uniqKey="Mansfield K" first="Keith" last="Mansfield">Keith Mansfield</name>
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<author><name sortKey="Ollis, David L" sort="Ollis, David L" uniqKey="Ollis D" first="David L." last="Ollis">David L. Ollis</name>
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<author><name sortKey="Mansfield, Keith" sort="Mansfield, Keith" uniqKey="Mansfield K" first="Keith" last="Mansfield">Keith Mansfield</name>
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<front><div type="abstract" xml:lang="en"><p id="P2">Organophosphorus (OP) pesticides are a broad class of acetylcholinesterase inhibitors that are responsible for tremendous morbidity and mortality worldwide, contributing to an estimated 300,000 deaths annually. Current pharmacotherapy for acute OP poisoning includes the use of atropine, an oxime, and benzodiazepines. However, even with such therapy, the mortality from these agents are as high as 40%.</p>
<p id="P3">Enzymatic hydrolysis of OPs is an attractive new potential therapy for acute OP poisoning. A number of bacterial OP hydrolases have been isolated. A promising OP hydrolase is an enzyme isolated from <italic>Agrobacterium radiobacter,</italic>
named OpdA. OpdA has been shown to decrease lethality in rodent models of parathion and dichlorvos poisoning. However, pharmacokinetic data have not been obtained. In this study, we examined the pharmacokinetics of OpdA in an African Green Monkey model.</p>
<p id="P4">At a dose of 1.2 mg/kg the half-life of OpdA was approximately 40 minutes, with a mean residence time of 57 minutes. As expected, the half-life did not change with the dose of OpdA given: at doses of 0.15 and 0.45 mg/kg, the half-life of OpdA was 43.1 and 38.9 minutes, respectively. In animals subjected to 5 daily doses of OpdA, the residual activity that was measured 24 hours after each OpdA dose increased 5-fold for the 0.45 mg/kg dose and 11-fold for the 1.2 mg/kg dose.</p>
<p id="P5">OpdA exhibits pharmacokinetics favorable for the further development as a therapy for acute OP poisoning, particularly for hydrophilic OP pesticides. Future work to increase the half-life of OpdA may be beneficial.</p>
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